The bot uses magnets to link its parts together in different forms
A robot made of several smaller robotic pieces can autonomously transform its body into shapes best suited for a particular task.
The bot primarily consists of wheeled, cubic “modules” that link up with one another using magnets, forming a small assortment of body types reminiscent of cars or snakes. The brains of the operation reside in a specialized module equipped with cameras and a small computer to map the robot’s environment, plan its routes and control the other modules’ configuration via Wi-Fi.
Unlike other robot conglomerates, this bot can explore unfamiliar environments without human direction, and decide for itself when and how to change its shape to complete assignments (SN Online: 9/12/17). Such flexible, self-sufficient machinery, described online October 31 in Science Robotics, could help with search-and-rescue efforts or cleanup around the house.
Mechanical engineer and roboticist Tarik Tosun, who did this research while at the University of Pennsylvania, and colleagues tested the robot’s versatility in several lab experiments. While collecting garbage from around a cluttered area, the car-shaped robot rearranged its modules to build a trunklike appendage, and used it to retrieve litter from a narrow gap between two trash cans.
In other experiments, the robot transformed into a snakelike bot that wriggled up a flight of stairs, as well as a robotic arm that reached up to stick a stamp on the side of a package. A version of the robot programmed with a larger repertoire of body types could operate in a wider range of environments.
ROBOTIC POSTMAN In a lab experiment, a new shapeshifter robot changed from a machine designed to roll across flat ground into a snakelike bot that could climb stairs to complete its mission of dropping a circuit board into a mailbox.
J. Daudelin et al. An integrated system for perception-driven autonomy with modular robots. Science Robotics. Published online October 31, 2018. doi:10.1126/scirobotics.aat4983.
M. Temming. Origami outfits help these bots change tasks swiftly. Science News. Vol. 192, October 28, 2017, p. 13.
M. Temming. In these bot hookups, the machines meld their minds. Science News Online, September 12, 2017.
M. Rosen. For robots, artificial intelligence gets physical. Science News. Vol. 190, November 12, 2016, p. 18.